Answer:
Option B
Explanation:
Urea, the main nitrogenous excretory product of mammals and a major organic component of urine is cleared from the blood by the kidney. Urea's concentration builds up in the renal medulla as they leave through the walls of the cortical collecting duct and go into the interstitial fluid in the region of the inner medulla, then some diffuses into the descending loop of Henle.
Identify all the true statements. In the liver, stimulation of the glucagon receptor leads to activation of glycogen phosphorylase. activation of insulin receptor kinase. activation of PKA (cAMP‑dependent protein kinase). conversion of ATP to cAMP. activation of fructose 1,6‑bisphosphatase (FBPase‑1). activation of phosphofructokinase‑2 (PFK‑2).
Answer:
-activation of glycogen phosphorylase
-activation of PKA (cAMP‑dependent protein kinase)
-conversion of ATP to cAMP
-activation of fructose 1,6‑bisphosphatase (FBPase‑1)
Explanation:
The binding of glucagon to its receptors affects the production of glucose in the liver. Once the glucagon receptors are activated, it leads to the activation of adenylate cyclase in which in turn increases the levels of cAMP (cyclic AMP) conversion from ATP. The increased level of cAMP then activates PKA (protein kinase A). PKA results in the phosphorylation of pyruvate kinase which results to the activation of fructose 1,6‑bisphosphatase (FBPase‑1) which results to decrease in glycolysis.
Furthermore, PKA activates phosphorylase kinase which results to the activation of glycogen phosphorylase and hence glycogenolysis. Glycogenolysis occurs when Glucose-1- phosphate is then released from glycogen. PKA also inhibits the action of glycogen synthase.
Punnet Square 6. Claud has hereditary rickets, an X-linked dominant disorder. If his partner does not have this
condition, then ... a. If this couple has a son, then what are his chances of having hereditary
rickets? b. If this couple has a daughter, then what are her chances of having hereditary rickets?
Answer:
a) the son will not be affected by rickets (0% chance)
b) the daughter will have rickets (100% chance)
Explanation:
Since only the father has rickets and it is a X-linked dominant trait, the mother has two normal X chromosomes. The X chromosome received from the mother by the son will not result in the rickets since the father will have contributed the Y chromosome and that does not have the gene for rickets. In case of the daughter, she will receive the defective X chromosome from her father, which will cause her to have the rickets disease.
Hope that answers the question, have a great day!
Many long‑distance swimmers carb‑load before an endurance event like a 5 km swim. Carbohydrate loading involves eating carbohydrate‑rich meals several days to one week before the event. In fact, many groups sponsor dinners the night before a race and serve high‑carbohydrate foods like pasta. However, studies are mixed about the usefulness of this practice. Regardless of its efficacy, what is the reasoning behind carbohydrate loading? Decreasing the amount of fat and protein in the diet helps with weight loss, which can improve endurance and speed. Excess glucose enables the body to produce more ATP, which is stored in the body and can be used during the event. Glucose is stored as glycogen, which can be broken down to supply energy during the event. Excess glucose is stored as muscle glycogen, reducing the amount of lactate generated in muscle during the event. Excess carbohydrates are stored as triacylglycerols, which can be oxidized during anaerobic metabolism.
Answer:
The correct answer is that the storage of glucose is done in the form of glycogen that can be further dissociated to provide energy at the time an event or competition or any kind of physical work out.
Explanation:
The athletes or swimmers generally enrich their bodies by consuming enough foods rich in carbohydrates. The prime reason for getting loaded with carbs is that the carbs present in the form of glucose get accumulated in the body in the form of glycogen that can be further dissociated to provide energy to the body of the athlete at the time of performing any kind of physical work.
The accumulated glycogen in the muscles works to provide energy for prolonged duration and thus helps in bettering stamina. Glycogen, which is a polysaccharide comprises energy that possesses the tendency to move towards the parts of the body that requires a quick burst of energy at the time of doing physical work like swimming.
Requires the blackworms to incubate 2 min in the test solution. If the worms were accidentally incubated for 4 min, how would the results be affected?
a. The results would not be affected since the test chemicals are known to not affect the pulse rate of blackworms.
b. The results would not be affected since an incubation time of 2 min is simply a time-saving device.
c. The pulse rate would be markedly increased due to excessive absorption of the test solution.
d. The pulse rate would be severely depressed or absent due to death of the worms.
Answer: Option C.
Explanation:
Blackworms are organisms most effeciently used by scientists to study the effect of drugs on the circulatory system. They have a transparent skin which make it easier to observe pulse rate. Drugs easily diffused through the skin of blackworms which cause immediate effect and they are easy to maintain in the laboratory. When the blackworms are incubated with extra 2 minutes, their pulse rate will increased due to excessive absorption of the test solution.
Final answer:
If the blackworms were accidentally incubated for 4 minutes instead of the required 2 minutes, the pulse rate of the blackworms would be severely depressed or absent, possibly leading to the death of the worms.
Explanation:
If the blackworms were accidentally incubated for 4 minutes instead of the required 2 minutes in the test solution, it can affect the results. The correct option would be (d). The pulse rate of the blackworms would be severely depressed or absent due to the extended incubation time, possibly leading to the death of the worms. Incubation time is a crucial factor in experiments as it determines the amount of time for the reaction or process to occur.
If y’all can help me on this I’ll be grateful
Complete hydrolysis of a nonapeptide gave 3 ala, 2 phe, 2 asp, gly, and ser. Reaction of the nonapeptide with Sanger's reagent (1-fluoro-2,4-dinitrobenzene) followed by hydrolysis gave N-(2,4-dinitrophenyl) alanine. Partial hydrolysis of the nonapeptide gave the following fragments: gly-ala-phe ala-asp-gly-ala phe-ser-ala ser-ala-phe-asp. Which one of the following is the nonapeptide's pripary structure? A) ala-asp-gly-ala-asp-ala-phe-sor-phe B) ala-asp-gly-ala-phe-ser-ala-phe-b C) ala-phe-asp-gly-ala-asp-ser-phe-ala D) gly-ala-phe-ser-ala-phe-asp-asp-ala
Answer:
Alanine is obtained as the first amino acid, taking into account that the reaction with the Sanger reagent hydrolyzes N- (2,4-dinitrophenyl) alanine. thus with the fragments of the partial hydrolysis they are organized to create a polypetidic chain
ala-asp-gly-ala
gly-ala-phe
phe-be-wing
be-wing-phe-asp
We obtain that the correct sequence of the peptide is "ala-asp-gly-ala-phe-ser-ala-phe-asp"
The primary structure of the nonapeptide is gly-ala-phe-ser-ala-phe-asp-asp-ala, determined by the amino acid composition, Sanger's reagent labeling, and partial hydrolysis results.
Explanation:The primary structure of proteins is simply the sequence in which amino acids are connected by peptide bonds. In your question regarding the primary structure of the nonapeptide, we need to determine the correct sequence of amino acids based on the given information. You provided data from a complete hydrolysis, reaction with Sanger's reagent, and results from partial hydrolysis. Sanger's reagent specifically labels the N-terminal amino acid of the peptide, which in this case is alanine. By analyzing the partial hydrolysis results and the amino acid composition of the nonapeptide, we can deduce the sequence. Considering the consistency with the partial fragments and Sanger's reagent labeling, the correct primary structure of the nonapeptide is gly-ala-phe-ser-ala-phe-asp-asp-ala. This takes into account the counts of each amino acid, the N-terminal label, and the partial hydrolysis results, putting the unique amino acid, glycine, at the N-terminus as indicated by the reaction with Sanger's reagent.
1. In the autonomous motor system there is a 2-step connection (i.e., 2 neurons in series) from the brain to the target muscles. This is different from the somatic motor system (only 1 neuron). Please list and briefly explain which advantage(s) in control this 2-step process provides.
Answer:
The pathways of visceral efferent 2-neurons that innervate the smooth muscles and other effectors of the autonomic nervous system are the preganglion neuron and the post ganglion neuron. The cell body of the preganglion are in the CNS(spinal cord and brain stem) while the cell bodies of the post ganglion are located in the autonomic nervous system at the periphery of the CNS. The axon of the preganglion synapse with the dendrites of the postganglion, and with its cell bodies. This is different from one neuron directs innervation of somatic.
This 2-step arrangements. provides advantage of maximizing the space in the CNS, conserving it, so that the CNS is not congested, as theses neurons are pushed to the spacious peripheral part of the CNS.
Thus, action potential are diverged outwards from the preganglion neurons outwards into the periphery. Which conserve space allowing the tiny periphery neurons to be stimulated, with the aids of the diverged circuits.Although reducing brain control.
Explanation:
Scientists have recently modified the bacteria that cause tooth decay by inserting a fragment of DNA into the bacteria's DNA that prevents it from producing lactic acid. What is the new DNA called?
Answer:
The correct answer would be A) genetic engineering.
Explanation:
The correct answer is A) genetic engineering.
The following information should be considered:
Genetic engineering defined the set of technologies that are applied manipulate the genes of an organism.It involved the isolation, cloning and transfer of of desired genes in to the host genomeLearn more: https://brainly.com/question/5763151?referrer=searchResults
g four pairs of species are given, with descriptions of how they interact. Match each system of differential equations with a species pair, and indicate which species is and which is . (a) represents the population. represents the population. (b) represents the population. represents the population. (c) represents the population. represents the population. (d) represents the population. represents the population.
Answer:
c
Explanation:
Which conclusion is true based on the information in this passage?
Changing one organism in a food web would not have any effect on any other food web.
o
It is easy to see all the ways that food webs are connected.
Food chains are always separate from each other.
Food webs are connected to each other and sensitive to any changes,
Answer:
True
True
False
True
Explanation:
Answer:
Food webs are connected to each other and sensitive to any changes.
Explanation:
The water cycle is driven by energy from the sun and?
Final answer:
The energy from the sun and gravity drive the water cycle, which includes the processes of evaporation, condensation, precipitation, and runoff as water moves through various Earth systems.
Explanation:
The water cycle is driven by energy from the sun and gravity. The sun's energy warms the oceans and surface waters, leading to evaporation (water turning into water vapor) and sublimation (ice turning into water vapor). This water vapor then condenses into clouds and eventually precipitates as rain or snow, returning to the Earth's surface. Gravity plays a crucial role in pulling this precipitation back to the ground and also in driving the water through runoff, rivers, and streams back toward the oceans. Additionally, water can percolate into the ground, becoming groundwater, which also contributes to the movement of water in the cycle.
Meiosis produces what types of cells? A. nerve cells B. muscle cells C. egg and sperm cells D. white and red blood cells
A virus is often used as a carrier of the corrected gene in gene therapy. What is another name for the harmless virus?
(1 Point)
vector
plasmid
recombinant DNA
CRISPR
2Identify ALL the terms that are synonyms for biotechnology.
(3 Points)
genetic engineering
genetic modification
gene editing
hybridization
3A researcher chooses a plasmid, bacterial DNA, with a gene that gives resistance to the antibiotic ampicillin. She isolates a human gene that codes for a protein and inserts into the bacteria's DNA. Next, she cultures the new bacteria on a nutrient medium contaning the antibiotic ampicillin.
Which of the following would indicate that the bacteria contain the human gene?
(1 Point)
They produce ampicillin.
They are resistant to ampicillin.
They attack the human protein encoded by the human gene.
They produce the human protein encoded by the human gene.
4A clone is an ________copy of an organism.
(1 Point)
identical
similar
different
hybrid
5DNA can be cut up into shorter sequences using
(1 Point)
carbohydrates
enzymes
transgenics
gel electrophoresis
6Genetic engineering involves
(1 Point)
reading a DNA sequence.
editing a DNA sequence.
reinserting DNA into living organisms
all of the above
7How was genetic engineering used to develop treatments for diabetes?
(1 Point)
The gene for human insulin was inserted into the genome of diabetes patients.
The gene for human insulin was inserted into cow and pig genomes and taken from their pancreas.
The gene for human insulin was replaced by the gene for cow or pig insulin so that it wouldn’t be damaged.
The gene for human insulin was inserted into E. coli bacteria so that this microbe could produce an identical version of human insulin
8What is Bt corn?
(1 Point)
A type of corn that produces its own insecticide because of an inserted gene for toxin production
A type of corn that is organically produced and cannot be sprayed with insecticides
Any kind of corn that is genetically modified
Corn that is especially vulnerable to the corn pest, Bacillus thuringiensis
9Identify ALL the techniques that were learned about last week.
(2 Points)
Recombinant DNA
genetically modified organims
de-extinction
transgenics
10Which disease is currently being treated with gene therapy?
(1 Point)
Huntington''s disease
Down's Syndrome
colorblindness
hemophilia
11Identify the food that is not commonly genetically modified.
(1 Point)
corn
tomatoes
peaches
soybeans
12The best illustrations to use to truly understand CRISPR are:
(2 Points)
copy and paste
cut and paste
scissors and glue
camera and scissors
13A scientist finds a gene in the DNA of a wild-growing plant that could increase the amount of lycopene, a cancer fighting agent, in grapefruits. The scientist inserts the DNA into the genes of the grapefruit. What has the scientist just performed?
(1 Point)
hybridization
genetic modification
de-extinction
PCR
14A member of a population of genetically identical cells produced from a single cell is a
(1 Point)
plasmid
mutant
clone
hybrid
15Biotechnology has made wonderful advances in the world. However, certain issues need to be remembered. Identify ALL the issues that should be discussed when using biotechnology?
(3 Points)
medical
societal
ethical
physical
16What is the diagram to the right describing?
(1 Point)
CRISPR
PCR
genetic engineering
transgenics
17Dolly the famous sheep was cloned in 1997. How did they do it?
(1 Point)
Used a plasmid from a bacteria to insert into the sheep
Used a skin cell and placed the DNA into a cell without a nucleus
Used the DNA sequence of another sheep and used CRISPR to insert it into another sheep
Used PCR to make copies of the sheep DNA and inserted it in another sheep
18Which of the following is the first step in gene therapy?Immersive Reader
(1 Point)
splicing the normal gene to viral DNA
allowing recombinant viruses to infect human cells
using restriction enzymes to cut out the normal gene from DNA
identifying the faulty gene that causes the disease
Answer:
the answer to that question is a vector
A 33-year-old female long-distance runner typically finishes marathons in less than 3:15. She has recently moved from Nebraska (altitude less than 1,640 feet or 500 m) to Colorado (altitude above 9,843 feet or 3,000 m). What changes are likely to occur within the first three months of her move with regard to aerobic performance
Answer:
There is no short answer.
Explanation:
Athletes such as runners may prefer to train at higher altitudes than the altitude they perform at. This is because the higher altitude increases the number of red blood cells in the athletes body thus providing the muscles with more oxygen which increases performance.
If the runner moves from Nebraska to Colorado which is at a higher altitude, she will see an increase to her aerobic performance in the first three months.
I hope this answer helps.
Final answer:
Upon moving to a higher altitude in Colorado, the runner will likely experience hypoxia and an initial decrease in her aerobic performance. In response, her body will adapt by producing more red blood cells to increase oxygen transport, which may improve her endurance over time. She should expect acclimatization to take several weeks and should monitor for symptoms of high altitude sickness.
Explanation:
The 33-year-old female long-distance runner who has moved from Nebraska to Colorado will experience several physiological changes due to the increase in altitude, which can affect her aerobic performance. At higher altitudes, the air is thinner and contains fewer oxygen molecules per breath. This can lead to a condition known as hypoxia, where the body does not receive enough oxygen. Initially, her marathon times may worsen as her body acclimates to these conditions. However, over the first three months, her body will begin to adapt by producing more red blood cells, which carry oxygen to the muscles and other tissues. This adaptation is a common strategy for endurance athletes to improve performance, though it may take several weeks or more to see significant improvements in her running times. While she is likely to experience an initial drop in her performance due to the reduced oxygen availability, she may ultimately benefit from the altitude acclimation once the body adjusts.
During the acclimation period, she might also endure symptoms consistent with high altitude sickness such as increased heart rate, possibly nausea, and headaches. These symptoms should lessen as her body gets used to the higher elevation. Staying well-hydrated and giving herself time to adjust before engaging in intense physical activity can help mitigate these effects.
It's important to note that while training at high altitude can potentially improve her performance at lower altitudes, she should consult with a sports physician to optimize her training plans and ensure safe acclimatization. Close monitoring of her body's response during this period is crucial for her health and performance outcomes.
Forests help to regulate the global climate by
A.) releasing oxygen
B.) preventing soil erosion
C.) emitting ozone
D.) absorbing carbon dioxide
Answer:
Absorbing carbon dioxide
Forests help regulate the global climate by absorbing carbon dioxide and releasing oxygen through photosynthesis.
Explanation:Forests help to regulate the global climate by absorbing carbon dioxide. They act as carbon sinks, taking in carbon dioxide from the atmosphere during photosynthesis and storing it in their biomass and soil. This helps to reduce the concentration of greenhouse gases, mitigating climate change.
In addition to absorbing carbon dioxide, forests also play a crucial role in releasing oxygen through the process of photosynthesis. They are often referred to as the 'lungs of the Earth' because they produce a significant amount of the oxygen we breathe.
While preventing soil erosion and emitting ozone are important functions of forests, they are not directly related to regulating the global climate.
Learn more about Forests and climate regulation here:https://brainly.com/question/14250429
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You are studying a population of mice that fall into two size classes: small and large. You are curious if mouse size is under selection. You count the number of offspring born to small and large parents. Your results show that small parents have on average 6.2 offspring and large parents have 6.25 offspring. Does size seem to be under selection
Answer:
The information is not sufficient to support this asumption
Explanation:
To unequivocally determine the existence of selection acting on this trait (size), it is necessary to carry out an experiment in which the sample size should be statistically significant (N sample for each group > 50). Moreover, it is also important to include negative controls (i.e., individuals with an average size between both groups) in the experiment.
You are studying a large flock of chickens and divide it into two halves. Each half contains the same genetic variations at the same frequencies as in the other half. To one half (the control group) you feed normal chicken chow, to the other half (the experimental group) you feed normal chicken chow supplemented with a nutritional booster. As expected, in the experimental group the hens lay an average number of eggs greater than those in the control group. Yet the heritability remains the same in both the experimental and control groups. You can explain this observation by hypothesizing that the variation in nutrition among hens is, select one of the options below and justify your answer.
A. smaller in the experimental group.
B. larger in the experimental group.
C. the same in both groups.
D. smaller in the control group.
E. larger in the control group.
Answer:
The answer is B.
Explanation:
We can explain why the hens in the experimental group which received the chow with the nutritional booster lay more eggs on average than the hens in the control group with the option B. The variation in nutrition among hens is larger in the second group which is the experimental group and this leads to the difference in the number of average eggs. It does not affect heritability which should be the same in both groups.
I hope this answer helps.
Moving water has been utilized in hydroelectric plants to _________________, but in recent years negative environmental consequences have become known.
A.
provide heat to buildings
B.
refine oil
C.
power train engines
D.
generate electricity
The correct answer is D. Generate electricity.
Explanation
A hydroelectric plant is a construction in which, as its name implies, the movement of water is used to generate electricity. These are located in the cause of a river, where they dam the river water, and allow it to follow its current through a complex of tunnels where the water acquires high pressures. Later, the water meets turbines that are moved by the energy that water brings, which generates that this synthetic energy is transformed into electricity. Therefore, the option that best completes the sentence of the question is D. Moving water has been used in hydroelectric plants to generate electricity, but in recent years negative environmental consequences have been known. The environmental damages of hydroelectric plants can be alteration of terrestrial, aquatic ecosystems and their biodiversity, it also generates changes in the river regime, alteration of natural flood cycles.
Differentiate between population density and
population distribution.
Answer:
Explanation:
Population density just represents the average number of individuals per unit of area. Usually, individuals of a certain population are not spread out evenly.
Population distribution describes how the individuals are distributed or spread throughout their habitat, and their most concentrated areas (where you can find a lot of them, ex. humans in the city)
Answer:
Population density is the number of individuals in a population per unit area.
Population distribution is the pattern in which individuals in a population are dispersed in an area.
Explanation: answer on e2021
why is the moon white
True or False: Blood is essential to homeostasis. *
True
False
Answer:
True
Explanation:
Answer:
true
Explanation:
The body eliminates nitrogenous waste through urine which is important for maintaining homeostasis in the body. The urinary system also helps control blood pressure by regulating the amount of fluid and ions in the body. Also, the kidneys produce the hormone erythropoietin which stimulates red blood cell production in the bone marrow.
The excretory system filters and deals with waste
materials so that the body can maintain a stable internal
environment called
Answer:
Homeostasis
Explanation:
Homeostasis refers to the body's ability to maintain a stable internal environment (regulating hormones, body temp. by sweating for example, and internal water balance, etc.).
Answer:
Homeostasis
Explanation:
In garden peas, tall plants (T) are dominant to short plants (t), and round pods (R) are dominant to constricted pods (r). A true breeding, homozygous tall plant with round pods (TTRR) was crossed with a true-breeding short plant with constricted pods (ttrr). All F1 plants were tall with round pods (TtRr). When the F1 plants were crossed, the F2 generation contain 75 tall/round and 25 short/constricted plants. What can you conclude about the chromosomal location(s) of these genes
Answer:
Based on the given information, the study of different varieties of the garden pea was done, that is, tall plants with round pods having homozygous genotype TTRR, and the short plants with constricted pods having homozygous genotype ttrr. Post crossing the mentioned varieties of garden pea, the F1 generation comprises tall plants with round pods having the genotype TtRr. While when the crossing of F1 generation plants was done, the plants obtained in the F2 generation demonstrated the phenotype, that is, tall plants with round pods, which is 75 in number and short plants with constricted pods, which is 24 in number.
This shows that the genes would have been the linked genes, as they would have been situated very close together on the homologous chromosomes, and because of this linkage, the expression of the genes would have taken together.
In case, if there was no linkage, then the genes would have assorted independently, and the offspring produced in the F2 generation would have shown the phenotypic ratio with the features of tall plants with round pods (9), short plants with round pods (3), tall plants with constricted pods (3), and short plants with constricted pods (1).
Though the above-mentioned situation did not occur and the plants obtained in the F2 generation demonstrated the phenotype, that is, tall plants with round pods, which is 75 in number and short plants with constricted pods, which is 24 in number. This further puts more emphasis on the fact that the genes for both the phenotypes were linked due to which expression of only the mentioned two varieties took place and the other two failed to do so.
: Hair color is a human trait controlled by 7 genes with a Heritability of 1. Based on this, provide a 1-2 sentence explanation of the correct classification for what type of trait hair color is and how the information provided supports that classification (single-gene trait, polygenic trait, multifactorial polygenic trait, environmentally controlled trait).
Answer:
Polygenic trait
Explanation:
A polygenic trait is a type of trait whose phenotype observed is affected by more than one genes i.e expression of the trait is controlled by not only a single gene but many. These traits include height or skin color and they display that display a continuous distribution; the hair color is controlled by 7 genes as described which is more than more.
Final answer:
Hair color is a polygenic trait influenced by multiple genes, reflected in the heritability score of 1, which implies genetic factors account for the observed variation in hair color among individuals.
Explanation:
Human hair color is classified as a polygenic trait because it is influenced by multiple genes. The heritability of 1 indicates that genetic factors entirely determine the variation observed in hair color among individuals within a population. This classification is supported by the fact that hair color results from the interaction of several genes, each contributing to the production and distribution of melanin, the pigment responsible for hair color. Examples include genes like MC1R, which affects the type of melanin produced, contributing to the range of hair colors from black, brown, blond, to red. Other genes such as TYR and TYRP1 also play significant roles in melanin production and, consequently, in determining hair color.
Jasmine is conducting an investigation and moves a magnet near a compass, causing the compass needle to move. However, the magnet never touched the compass. This observation is evidence for which characteristics of magnetic fields?
Answer:
This observation shows the ability of the magnetic fields to create lines that can align the position of the magnets.
Explanation:
Compasses have a small magnet on the pointer and this explains why the compass pointer aligns with a magnet, even if the magnet does not touch the compass.
That's because the magnet on the compass pointer creates a magnetic field around it. This magnetic field is capable of creating lines that have the ability to align the position of different magnets, even if they do not touch.
Answer:
They have a north pole and a south pole.
Explanation:
A snapdragon plant that bred true for white petals was crossed with a plant that bred true for purple petals, and all the F1 had white petals. The F1 were selfed. Among the F2, three phenotypes were seen: solid purple: 61 white: 240 spotted-purple 19. If two spotted-purple plants from the F2 generation were crossed, what would be the phenotypic ratio of the offspring
Final answer:
If two spotted-purple snapdragon plants are crossed, the expected phenotypic ratio would be 1 solid purple: 2 spotted-purple: 1 white, assuming spotted-purple is a result of heterozygous genotype.
Explanation:
If two spotted-purple snapdragon plants from the F2 generation were crossed, the phenotypic ratio of their offspring can be predicted using Mendelian genetics, but with incomplete dominance or co-dominance since we have a spotted phenotype. Assuming that the spotted-purple phenotype results from a heterozygous condition, we can denote the purple allele as 'P' and white allele as 'W'. The spotted condition could be represented by the genotype 'PW'.
When two spotted-purple plants are crossed (PW x PW), the possible genotypes of the offspring could be PP (solid purple), PW (spotted-purple), and WW (white). According to the Punnett square, the genotypic ratio would be 1 PP : 2 PW : 1 WW. Therefore, the expected phenotypic ratio would be 1 solid purple : 2 spotted-purple : 1 white.
This example showcases an inheritance pattern where three phenotypes are expressed, indicating a more complex form of inheritance than the simple dominant-recessive pattern that Gregor Mendel observed in his pea plant experiments, where typically only two phenotypes are seen.
Evolution is a process of ___
in a population through___
variation over ___.
Evolution involves ___
and ___.
Answer:
inheritable changesgeneticgenerationsI don't know about the second sentence, is it possible you give me a bit more of a context then maybe i can be of help
Answer:
Change
Genetic
Time
Change Over time
Decent from a common ancestor
Explanation:
I got it correct.
Often only small amounts of DNA are found at a crime scene. Which technique uses an enzyme to replicate DNA regions from a small sample of DNA for use in DNA fingerprinting?
Answer:
Polymerase chain reaction(PCR)
Explanation:
PCR is used to replicate the DNA into bigger amount until it is enough to be analyzed by different methods
Hope this helps you :)
biology work pls help
Answer:
Tall people are normally underweight
Which of the following statements about hormones are correct? Hormones can be peptides, steroids, or amino acid derivatives. Hormones can stimulate the synthesis of target proteins through the activation of specific genes. Hormones can directly activate or inhibit enzymes through the action of signal molecules. Hormones can increase the cellular uptake of metabolites. View Available Hint(s) Which of the following statements about hormones are correct? Hormones can be peptides, steroids, or amino acid derivatives. Hormones can stimulate the synthesis of target proteins through the activation of specific genes. Hormones can directly activate or inhibit enzymes through the action of signal molecules. Hormones can increase the cellular uptake of metabolites. 1, 2, and 4 are correct. 1 and 2 are correct. 1, 2, and 3 are correct. All of the listed statements are correct. Provide Feedback
Answer:
Statements 1, 2 and 4 are correct:
"Hormones can be peptides, steroids, or amino acid derivatives."
"Hormones can stimulate the synthesis of target proteins through the activation of specific genes."
"Hormones can increase the cellular uptake of metabolites."
Explanation:
Hormones are basically proteins that are released under particular conditions to bring about a certain response in the body. They can activate genes and even change how cells respond to metabolites, for instance, insulin and glucagon are two hormones that regulate the level of sugar in the blood. Another example is the hormone adrenaline, which is released in the 'flight-or-fight' response to prepare the body in taking action.
Hope that answers the question, have a great day!